1. Temperature control of reproduction and productivity in a subarctic coralline alga;Adey;Phycologia,1973
2. Elucidating marine biogeography with macrophytes: quantitative analysis of the North Atlantic supports the thermogeographic model and demonstrates a distinct subarctic region in the northwestern Atlantic;Adey;Northeast. Nat.,2011
3. Thermogeography over time creates biogeographic regions: a temperature/space/time-integrated model and an abundance-weighted test for benthic marine algae;Adey;J. Phycol.,2001
4. DNA sequencing, anatomy and calcification patterns support a monophyletic, subarctic, carbonate reef-forming Clathromorphum (Hapalidiaceae, Corallinales, Rhodophyta);Adey;J. Phycol.,2015
5. Phymatolithon (Melobesioideae, Hapalidiales) in the boreal–subarctic transition zone of the North Atlantic: a correlation of plastid DNA markers with morpho-anatomy, ecology and biogeography;Adey;Smithson. Contrib. Mar. Sci.,2018